International audienceProvides a guide to nonlinearity in energy harvesting systems, implemented in micro- and nanoscale employing MEMS and NEMS engineering techniques;Begins with tutorial chapters that make the discussion self-contained and accessible to readers who are not familiar with MEMS and nonlinear dynamics;Includes an overview of electrostatic and piezoelectric transducers and discusses in detail conditioning circuits for vibration energy harvesters
Efficiently converting vibration energy from surrounding environment to electric energy for powering...
This thesis is focused on vibration energy harvester, which is a device converting kinetic energy of...
Abstract. Vibration energy harvesting is a concept to convert the mechanical energy contained in vib...
The objective of this chapter is to introduce the technology of Microelectromechanical Systems, MEMS...
A nonlinear micro-piezoelectric–electrostatic energy harvester is designed and studied using mathema...
Vibration energy harvesting is one the hottest topics addressed by a big part of the scientific comm...
Nonlinear energy sinks (NESs) are strongly nonlinear mechanical oscillators that are weakly coupled ...
AbstractWe study the performance of vibrational energy harvesting systems with piezoelectric and mag...
Ambient dispersed mechanical vibrations are a viable energy source, that can be converted into usabl...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
chap 6International audienceVibration‐powered generators are typically inertial spring and mass syst...
International audienceIn this paper, we overview the sources of nonlinearities and the methods of an...
Microelectromechanical systems contain mechanical elements coupled with conditioning electronics tha...
This work is dedicated to principles of energy harvesting or scavenging from free energy around us. ...
Efficiently converting vibration energy from surrounding environment to electric energy for powering...
This thesis is focused on vibration energy harvester, which is a device converting kinetic energy of...
Abstract. Vibration energy harvesting is a concept to convert the mechanical energy contained in vib...
The objective of this chapter is to introduce the technology of Microelectromechanical Systems, MEMS...
A nonlinear micro-piezoelectric–electrostatic energy harvester is designed and studied using mathema...
Vibration energy harvesting is one the hottest topics addressed by a big part of the scientific comm...
Nonlinear energy sinks (NESs) are strongly nonlinear mechanical oscillators that are weakly coupled ...
AbstractWe study the performance of vibrational energy harvesting systems with piezoelectric and mag...
Ambient dispersed mechanical vibrations are a viable energy source, that can be converted into usabl...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
chap 6International audienceVibration‐powered generators are typically inertial spring and mass syst...
International audienceIn this paper, we overview the sources of nonlinearities and the methods of an...
Microelectromechanical systems contain mechanical elements coupled with conditioning electronics tha...
This work is dedicated to principles of energy harvesting or scavenging from free energy around us. ...
Efficiently converting vibration energy from surrounding environment to electric energy for powering...
This thesis is focused on vibration energy harvester, which is a device converting kinetic energy of...
Abstract. Vibration energy harvesting is a concept to convert the mechanical energy contained in vib...